AT397587B - VALVE, ESPECIALLY FOR A SERVO GAS PRESSURE REGULATOR - Google Patents

Description

AT 397 587 B

The invention relates to a valve, in particular for a servo gas pressure regulator, with a valve body cooperating with a valve seat and biased by a spring against its closed position and controlled by a diaphragm, which is acted upon by a compression spring supported thereon and by the spring opposite side is connected with a plunger, which in turn stands on the membrane.

Such a valve has become known from US Pat. No. 3,643,683, in which case the membrane is connected to a tappet which in turn engages with a defined play in the actual valve body, which is supported by a spring and has a sealing ring. The tappet is mounted directly on the lower valve part 6, which requires precise manufacture of this lower valve part. io The present invention has for its object to simplify the structure of such a valve.

The object of the invention is that a receptacle with a wall surrounding the plunger is arranged on the side of the valve body facing away from the spring, wherein a defined play is preferably provided between the plunger and the wall of the receptacle and that the iS plunger in a bushing passing through a wall of the housing is guided between the receptacle and the membrane contact point.

With this configuration, it is no longer necessary to precisely manufacture the valve body with its extension, but only the bushing, which in turn is then inserted into the large-tolerance valve body. However, the bushing can be manufactured considerably more easily, since it is a turned part, while the valve lower part is a cast part.

According to a further feature of the invention it can be provided that the sealing ring overlaps the end faces of the valve body with inwardly projecting flanges.

In this way, a very secure fit of the sealing ring on the valve body is achieved.

Furthermore, it can be provided that the sealing ring is supported on the end face of the valve body facing the membrane and surrounds a shoulder of the valve body.

In this way, it can be found with relatively small seals.

The invention will now be explained in more detail with reference to the drawing. Show:

1 schematically shows a servo pressure regulator with a valve according to the invention,

Fig. 2 shows an inventive valve in. Section, 30 Fig. 3 aine valve body,

4 to 9 different embodiments of valve bodies and sealing rings.

1 has an inlet chamber 6 connected to a gas supply line and an outlet chamber 2 which is delimited by a membrane 3 which is connected to a valve body 4 which cooperates with a valve seat 5 which opens an opening of the inlet chamber 6 bounded by the 35 outlet chamber 2 wall 7. A pilot burner connection 41 branches off from the inlet chamber via a filter 40.

The inlet chamber 6 is connected via a filter 33 and a throttle 8 to a chamber 9 which has an opening provided with a valve seat 10, which cooperates with a valve body 11 of a switching magnet 12. This switching magnet 12, or its valve body 11, also interacts with a further 40 valve seat 13, which delimits an opening of a control line 14 connected to the outlet chamber 2. This control line 14 also leads to a control chamber 16 delimited by the auxiliary diaphragm 15, which furthermore has a control valve 17, the valve body 18 of which cooperates with a valve seat 19, which delimits an opening of the control chamber 16, which connects it to a control line 20 which flows into the from the membrane 3 from the inlet chamber 2 separated control chamber 21 leads. 45 A spring 31 also acts on the diaphragm 15, which is supported on the armature 34 of the electromagnet 32 via a spring plate, the space above the auxiliary diaphragm 15 being connected to the surroundings via a throttle opening 35.

In the rest position, the switching magnet 12, or its valve body 11, closes the chamber 9. This results in the same pressure conditions via the outlet chamber 2 and the control lines 14 and 20 on both sides of the membrane 3, so that the spring 29 presses the membrane downward and thus presses the valve body 4 against the valve seat 5 and thus largely prevents the gas from flowing out of the inlet chamber 6.

After switching the switching magnet 12, or its valve body 11, the connection of the chamber 9 to the control line 20 is opened and the connection of the control line 20 to the control line 55 14 is prevented, as shown in FIG. 1.

As a result, gas can flow via the throttle 8, the space 9, the valve seat 10 and the control line 20 into the control chamber 21, as a result of which the valve body 4 is lifted against the force of the spring 29 from the valve seat 5 and the gas flows into the outlet chamber 2 and from there to the not shown 2nd

AT 397 587 B

Burner can flow.

The auxiliary membrane 15 is acted upon on its underside by the outlet gas pressure, which depends on the gap remaining between the valve seat 5 and the valve body 4, and therefore has the tendency to bulge upwards and thus to open the valve 17. This is counteracted by the spring 31 which, depending on the voltage applied to the electromagnet 32, acts on the auxiliary diaphragm 15 more or less against the outlet gas pressure.

There is therefore a corresponding equilibrium state in which the valve 17 is opened to a certain extent, so that gas flows from the chamber 9 and the control chamber 21 via this valve, the latter via the control line 20 into the control chamber 16 and from there to the outlet chamber 2 can flow. This causes a decrease in the pressure in the control chamber 21 and thus a closing movement of the valve body 4. The latter has the result that the pressure in the inlet chamber 6 and thus also in the chamber 9 and subsequently also in the control chamber 21, which increases an opening movement of the valve body 4 leads. There is thus an equilibrium state, which depends on the position of the valve 17, which in turn depends on the voltage applied to the electromagnet 32, which changes the position of the armature 34 and with it the spring plate and thus the pretensioning of the auxiliary diaphragm 15, whereby the valve body 18 and the valve seat 19 form a throttle point.

There is an essentially linear relationship between the magnetic force acting on the armature 34 of the electromagnet 32 and the current flowing through the coil of the electromagnet. Depending on the size of the current, different forces result.

The electromagnet 32 is arranged in a two-part housing 42, 43, the two parts of which are screwed together. The housing 42, 43 is screwed to the housing delimiting the control chamber 16.

As can be seen from FIG. 2, the control chamber 21 is delimited by the membrane 3 and a cover 52 covering an annular projection 51. The wall 7 protrudes beyond the central axis of the membrane 3 and is penetrated by a bushing 53 which guides a plunger 54 in a displaceable manner. This tappet 54 stands on the diaphragm 3 and engages in a recess 55 in an extension 56 of the valve body 4.

The tappet 54 lifts the valve body 4 from its valve seat 5 against the force of the spring 29 as soon as the diaphragm 3 bulges upwards.

The entire valve can be installed very easily. Thus, the valve body can be placed on the valve seat 5 from above and the spring 29 can then be inserted. Then the tappet 54 can be inserted into the bushing 53, the membrane 3 can be placed on the shoulder 51 and the cover 52 can be fixed with the interposition of a seal.

3 shows an embodiment of a valve body 4. This is essentially disc-shaped and has an annular extension 56, the recess 55 of which is provided for receiving the tappet 54. The valve body 4 is provided with a sealing ring 60 which overlaps the valve body 4 with two inwardly directed flanges 61 and 62.

Furthermore, the valve body 4 is provided with a recess 57 for receiving the spring 29.

In the valve according to FIG. 4, the valve body 4 is provided with a circumferential extension 63 which engages in a circumferential groove 64 of the sealing ring 601. This is still supported on an end face 65 of the valve body 4 facing the membrane, this area of the sealing ring 601 being able to be brought into contact with the valve seat 5.

In the embodiment according to FIG. 5, the valve body 4 is provided with a circumferential annular groove 55, in which a sealing ring formed by an O-ring 602 is inserted, which can be brought into contact with the valve seat 5. In principle, however, a sealing ring with a different cross section can also be provided instead of an O-ring.

In the embodiment according to FIG. 6, an essentially L-shaped sealing ring 603 is provided, which is supported on an end face of the valve body 4 facing the diaphragm and encloses the extension 56. This sealing ring 603 comes with its outer edge on the Valve seat 5 to the system.

In the embodiment according to FIG. 7, the valve body 4 is provided with a circumferential annular groove 67, in which a sealing ring 504 which is essentially L-shaped in cross section is held. The sealing ring 604 lies in the corner region of its cross section on the valve seat 5, the shorter leg of the sealing ring 604 resting on a cylindrical surface of the valve body 4.

In the embodiment according to FIG. 8, the valve body 4 likewise has a circumferential annular groove 58 which has an essentially triangular cross section. A sealing ring 605 is held in this annular groove 58, which is designed in the form of a circular arc in cross section and rests with its one end face on a cylindrical surface of the valve body 4. 3rd

Claims (7)

AT 397 587 B In the embodiment according to FIG. 9, the sealing ring 608 is inserted in the valve seat, against which the valve body 4 can be brought into contact. The valve body 4 is provided with a circumferential rib 59 arranged in the recess 57. 1. Valve, in particular for a servo gas pressure regulator, with a valve body cooperating with a valve seat and biased by a spring against its closing division and controlled by a diaphragm which is acted upon by a compression spring (29) supported thereon and on which the spring (29) opposite side is connected to a tappet (54) which in turn stands on the diaphragm (3), characterized in that on the side of the valve body (4) facing away from the spring (29) a receptacle (55) with a tappet ( 54) is arranged around the wall, wherein a defined play is preferably provided between the plunger (54) and the wall of the receptacle (55) and that the plunger (54) is in a bushing (5) passing through a wall (7) of the housing (50). 53) is guided between the receptacle and the membrane contact point. 2. Valve according to claim 1, characterized in that the sealing ring (60) engages over the end faces of the valve body (4) with inwardly projecting flanges (61, 62). 3. Valve according to claim 1, characterized in that the sealing ring (603) surrounds a shoulder (56) of the valve body (4) and is supported in a manner known per se on the end face of the valve body (4) facing the membrane (3). 4. Valve according to claim 1, characterized in that the sealing ring (601) is provided with a circumferential groove (64) which receives a circumferential projection (63) of the valve body (4). 5. Valve according to claim 1 or 4, characterized in that the sealing ring (601) on the diaphragm facing end face (65) of the valve body (4) is supported, this region of the sealing ring (601) on the valve seat (5) for contact is feasible. 6. Valve according to claim 1, characterized in that the sealing ring (605) is provided with an inwardly facing, triangular in cross-section circumferential projection which engages in a circumferential groove (58) of the valve body (4). 7. Valve according to claim 6, characterized in that adjoins the area of the sealing ring (605) which carries the projection. A section which is circular in cross-section and which bears with its end face against a cylindrical surface of the valve body (4). Including 9 sheets of drawings 4